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Foreword
December 1992 (vol. 4 no. 6)
pp. 507-508

[1] A. C. Ammann, M. B. Hanrahan, and R. Krishnamurthy, "Design of a memory resident DBMS," inProc. IEEE Spring Computer Conf., 1985, pp. 54-57.
[2] C. H. Corti, "Updating in a main memory database system," Ph.D. dissertation, Dep. Comput. Sci. Eng., Southern Methodist Univ, Sept. 1991.
[3] D. J. DeWittet al., "Implementation techniques for main memory databases," inProc. ACM Sigmod(Boston, MA), June 18-21, 1984, pp. 1-8.
[4] M. H. Eich, "A classification and comparison of main memory database recovery techniques," inProc. 1987 IEEE Database Engineering Conf., 1987.
[5] M. H. Eich, "MARS: The design of a main memory database machine," inDatabase Machines and Knowledge Base Machines. Boston, MA: Kluwer Academic, 1988, pp. 325-338.
[6] M. H. Eich, C. Corti, L. Gruenwald, F. Mariategui, and Z. Gulzar, "Main memory recoverable database with stable log," Tech. Rep. 89-CSE-38, Dep. Comput. Sci., Southern Methodist Univ., Feb. 1989.
[7] H. Garcia-Molina, R. J. Lipton, and P. Honeyman, "A massive memory database system," Tech. Rep., Dep. Elect. Eng. Comput. Sci., Princeton Univ., Sept. 1983.
[8] H. Garcia-Molina, R. J. Lipton, and J. Valdes, "A massive memory machine,"IEEE Trans. Comput., vol. C-33, pp. 391-399, May 1984.
[9] H. Garcia-Molina, A. Park, and L. R. Rogers, "Performance through memory."inProc. 1987 ACM SIGMETRICS Conf. on Measurement and Modeling of Computer Systems, May 1987, pp. 122-131.
[10] J. Gray, "Practical problems in data management -- A position paper," inProc. AMC-SIGMOD Int. Conf. on Management of Data, 1983, p. 3.
[11] R. B. Hagmann, "A crash recovery scheme for a memory-resident database system,"IEEE Trans. Comput., vol. C-35, no. 9, pp. 839- 843, Sept. 1986.
[12] IMS/VS Version 1 Fast Path Feature General Information Manual, GH20-9069-2, IBM, Apr. 1978.
[13] M. L. Kersten, P. M. G. Apers, M. A. W. Houtsma, E. J. A. van Kuyk, and R. L. W. van de Weg, "A distributed, main-memory database machine: Research issues and a preliminary architectures," inProc. 5th Int. Workshop on Database Machines, Oct. 1987, pp. 496-511.
[14] T. J. Lehman, "Design and performance evaluation of a main memory relational database system," Ph.D. dissertation, CS Dep., Univ. of Wisconsin-Madison, 1986.
[15] M. D. P. Leland, and W. D. Rome, "The silicon database machine," inProc. Database Machines Fourth Int. Workshop, 1985, pp. 169-189.
[16] R. Nakano and M. Kiyama, "MACH: Much faster associative machine," inProc. 5h Int. Workshop on Database Machines, Oct. 1987, pp. 482-495.
[17] K. Salem and H. Garcia-Molina, "System M: A transaction processing testbed for memory resident data,"IEEE Trans. Knowl. Data Eng., vol. 2, pp. 161-172, Mar. 1990.
[18] K. Whanget al., "Office-by-example, An integrated office system and database manager," Rep. 11966, IBM T.J. Watson Res. Ctr, June 1986.

Citation:
M. Eich, "Foreword," IEEE Transactions on Knowledge and Data Engineering, vol. 4, no. 6, pp. 507-508, Dec. 1992, doi:10.1109/TKDE.1992.10005
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